Torsional vestibulo-ocular reflex measurements for identifying otolith asymmetries possibly related to space motion sickness susceptibility.

Recent studies by Diamond and Markham have identified significant correlations between space motion sickness susceptibility and measures of disconjugate torsional eye movements recorded during parabolic flights. These results support an earlier proposal by von Baumgarten and Thumler which hypothesized that an asymmetry of otolith function between the two ears is the cause of space motion sickness. It may be possible to devise experiments that can be performed in the 1 g environment on earth that could identify and quantify the presence of asymmetric otolith function. This paper summarizes the known physiological and anatomical properties of the otolith organs and the properties of the torsional vestibulo-ocular reflex which are relevant to the design of a stimulus to identify otolith asymmetries. A specific stimulus which takes advantage of these properties is proposed.

[1]  T Viéville,et al.  Ocular Counter-rolling during Active Head Tilting in Humans. , 1987, Acta oto-laryngologica.

[2]  R J von Baumgarten,et al.  Unilateral centrifugation of the otoliths as a new method to determine bilateral asymmetries of the otolith apparatus in man. , 1990, Acta astronautica.

[3]  S G Diamond,et al.  Further evidence to support disconjugate eye torsion as a predictor of space motion sickness. , 1992, Aviation, space, and environmental medicine.

[4]  G D Paige,et al.  Eye movement responses to linear head motion in the squirrel monkey. II. Visual-vestibular interactions and kinematic considerations. , 1991, Journal of neurophysiology.

[5]  G. Paige,et al.  Eye movement responses to linear head motion in the squirrel monkey. I. Basic characteristics. , 1991, Journal of neurophysiology.

[6]  J. Goldberg,et al.  Physiology of peripheral neurons innervating otolith organs of the squirrel monkey. II. Directional selectivity and force-response relations. , 1976, Journal of neurophysiology.

[7]  H. Collewijn,et al.  Human gaze stability in the horizontal, vertical and torsional direction during voluntary head movements, evaluated with a three-dimensional scleral induction coil technique , 1987, Vision Research.

[8]  R. Peterka Response Characteristics of the Human Torsional Vestibuloocular Reflex a , 1992, Annals of the New York Academy of Sciences.

[9]  G D Paige,et al.  Linear vestibulo-ocular reflex (LVOR) and modulation by vergence. , 1991, Acta oto-laryngologica. Supplementum.

[10]  J R Lackner,et al.  Asymmetric otolith function and increased susceptibility to motion sickness during exposure to variations in gravitoinertial acceleration level. , 1987, Aviation, space, and environmental medicine.

[11]  T. Viéville,et al.  Ocular Counter-rolling during Active Head Tilting in Humans. , 1987, Acta oto-laryngologica.

[12]  S G Diamond,et al.  Prediction of space motion sickness susceptibility by disconjugate eye torsion in parabolic flight. , 1991, Aviation, space, and environmental medicine.

[13]  E. F. Miller Evaluation of otolith organ function by means of ocular counter-rolling measurements , 1970 .

[14]  J. Goldberg,et al.  Physiology of peripheral neurons innervating otolith organs of the squirrel monkey. I. Response to static tilts and to long-duration centrifugal force. , 1976, Journal of neurophysiology.